ref: 264e4718c21792ed8ee230d39aa2b9ac88d73b14
dir: /modules/butbr.c/
/* * Butbr * * This is an implementation of a 2nd-order butterworth * band-reject filter, discretized using the bilinear transform. * * For more information on using the BLT on 2nd-order * butterworth filters, see: * * https://ccrma.stanford.edu/~jos/filters/Example_Second_Order_Butterworth_Lowpass.html */ #include <math.h> #include <stdlib.h> #include "soundpipe.h" #ifndef M_PI #define M_PI 3.14159265358979323846 #endif int sp_butbr_create(sp_butbr **p) { *p = malloc(sizeof(sp_butbr)); return SP_OK; } int sp_butbr_destroy(sp_butbr **p) { free(*p); return SP_OK; } int sp_butbr_init(sp_data *sp, sp_butbr *p) { p->freq = 1000; p->bw = 1000; p->pidsr = M_PI / sp->sr * 1.0; p->tpidsr = 2 * M_PI / sp->sr * 1.0; p->a[5] = p->a[6] = 0.0; p->lfreq = 0.0; p->lbw = 0.0; return SP_OK; } int sp_butbr_compute(sp_data *sp, sp_butbr *p, SPFLOAT *in, SPFLOAT *out) { SPFLOAT *a; SPFLOAT t, y; SPFLOAT bw, freq; if (p->bw <= 0.0) { *out = 0; return SP_OK; } a = p->a; bw = p->bw; freq = p->freq; if (bw != p->lbw || freq != p->lfreq) { SPFLOAT c, d; p->lfreq = freq; p->lbw = bw; c = tan((SPFLOAT)(p->pidsr * bw)); d = 2.0 * cos((SPFLOAT)(p->tpidsr * freq)); a[0] = 1.0 / (1.0 + c); a[1] = -d * a[0]; a[2] = a[0]; a[3] = a[1]; a[4] = (1.0 - c) * a[0]; } t = *in - a[3]*a[5] - a[4]*a[6]; y = t*a[0] + a[1]*a[5] + a[2]*a[6]; a[6] = a[5]; a[5] = t; *out = y; return SP_OK; }